AI Article Synopsis
- Natural hematopoietic stem cells (HSC) struggle to maintain their stemness and survive in vitro culture, making it challenging to generate and study them from pluripotent stem cells.
- Modifying genes such as creating NUP98-HOXA10HD fusion and introducing NrasG12D mutations has been shown to enhance HSC's competitiveness for engraftment and support their longevity in culture.
- These genetic modifications affect multiple cellular pathways related to cell division and stemness, leading to the development of a new transgenic model that allows researchers to better study HSC and improve regeneration protocols.
Article Abstract
Natural hematopoietic stem cells (HSC) are susceptible and tend to lose stemness, differentiate, or die on culture condition in vitro, which adds technical challenge for maintaining HSC-like cells, if ever generated, in protocol screening from pluripotent stem cells. It remains largely unknown whether gene-editing of endogenous genes can genetically empower HSC to endure the culture stress and preserve stemness. In this study, we revealed that both NUP98-HOXA10HD fusion and endogenous Nras mutation modifications (NrasG12D) promoted the engraftment competitiveness of HSC. Furthermore, the synergy of these two genetic modifications endowed HSC with super competitiveness in vivo. Strikingly, single NAV-HSC successfully maintained its stemness and showed robust multi-lineage engraftments after undergoing the in vitro culture. Mechanistically, NUP98-HOXA10HD fusion and NrasG12D mutation distinctly altered multiple pathways involving the cell cycle, cell division, and DNA replication, and distinctly regulated stemness-related genes including , , , , and in the context of HSC. Thus, we develop a super-sensitive transgenic model reporting the existence of HSC at the single cell level on culture condition, which could be beneficial for protocol screening of HSC regeneration from pluripotent stem cells in vitro.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6770072 | PMC |
| http://dx.doi.org/10.3390/cells8090951 | DOI Listing |
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